Saturn IB
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| Saturn IB | ||
|---|---|---|
| Missing image Apmisc-KSC-66PC-232.jpg The Saturn IB rocket for the AS-202 mission Saturn IB rocket. | ||
| Stages | 2 | |
| 1 - S-IB | Engines | 8 * H-1 |
| Thrust | 1,500,000 lbf (6.7 MN) | |
| Burn time | ~150 seconds | |
| Fuels | RP-1/LOX | |
| 2 - S-IVB | Engines | 1 * J-2 |
| Thrust | 890 kN (200,000 lbf) (later 1,000 kN) | |
| Burn time | ~475 s | |
| Fuels | LH2/LOX | |
| Two stage version | ||
| Payload to LEO | 15,300 kg | |
The Saturn IB was an uprated verson of the Saturn I, which was the first manned launch vehicle that was not directly derived from an ICBM (though its tanks were derived from the Jupiter and Redstone tanks, and its first stage engines were Navaho derived). It was conceived in 1962 for use as the launch vehicle for Apollo Earth orbital (block 1) missions (manned and unmanned), the manned Skylab flights, and the Apollo-Soyuz Test Project. The final production run (such as Skylab launch vehicles) did not have alternating black and white tanks on the first stage.
The main payload of the Saturn IB was the Apollo Spacecraft.
The Saturn family of rockets consist of Saturn I, Saturn IB and Saturn V
Height: 224 ft (68.3 m) with Apollo spacecraft
Diameter: 21 ft 8 in (6.6 m)
Finspan: 18 ft (5.5 m)
Number of fins: 8
Number of stages:2
Parts: Stage 1 (S-Ib), Stage 2 (S-IVB), instrument unit, interstage adapter
Data for the Saturn IB
| Parameter | S-IB - 1st Stage | S-IVB - 2nd Stage | Instrument Unit | Apollo Spacecraft |
|---|---|---|---|---|
| Height (m) | 25.5 | 17.8 | 1.00 | 24 |
| Diameter (m) | 6.6 | 6.6 | 6.6 | 3.9 |
| Gross mass (kg) | 458,107 | 119,920 | 1,980 | 20,788 |
| Empty mass (kg) | 45,267 | 13,311 | 225 | 14,098 |
| Engines | Eight - H-1 | One - J-2 | - | One SPS |
| Thrust (kN) | 7,582 | 1,020 | - | 97.86 |
| Isp (s) | 288 | 421 | - | 314 |
| Isp (kN·s/kg) | 2.82 | 4.13 | - | 3.08 |
| Burn duration (s) | 150 | 470 | - | 635 |
| Propellant | LOX/RP-1 | LOX/LH2 | - | N2O4/UDMH |
Saturn IB Launch Events
| Launch Event | Time (s) | Altitude (km) | Range (km) |
|---|---|---|---|
| Ignition Command | -3.02 | . | . |
| First Motion | -0.19 | . | . |
| Liftoff | 0.00 | . | . |
| Initiate Pitch Maneuver | 10.0 | . | . |
| Initiate Roll Maneuver | 10.0 | . | . |
| End Roll Maneuver | 38.0 | . | . |
| Mach One | 62.18 | 7.63 | . |
| Max Q | 75.5 | 12.16 | . |
| Freeze Tilt | 134.40 | . | . |
| Inboard Engine Cutoff | 140.65 | . | . |
| Outboard Engine Cutoff | 144.32 | . | . |
| Ullage Rockets Ignition | 145.37 | . | . |
| S-IB / S-IVB Separation | 145.59 | . | . |
| S-IVB Ignition | 146.97 | . | . |
| Ullage Rocket Burnout | 148.33 | . | . |
| Ullage Rocket Jettison | 156.58 | . | . |
| Jettison LES | 163.28 | . | . |
| Start Pitch Over | 613.95 | . | . |
| S-IVB Cutoff | 616.76 | . | . |
| Orbit Insertion | 626.76 | . | . |
| Start S/C Sep Sequence | 663.11 | . | . |
| Spacecraft Separation | 728.31 | . | . |
S-IB stage
Saturn_IB_1st_stage.jpg
The S-IB stage is an eight engine booster for Earth orbital missions. It is composed of nine propellant containers, eight fins, a thrust structure assembly, eight H-1 rocket engines, and many other components. The propellant containers consist of eight Redstone tanks (Four holding LOX and four holding RP-1.) clustered around a Jupiter rocket tank, which contains LOX. The four outboard engines can gimble, meaning they can be steered to properly guide the rocket. This requires a few more engine components.
Specifications:
Height: 83.6 ft (25.5 m)
Diameter: 21.7 ft (6.6 m)
Number of fins: 8
Finspan: 18 ft (5.5 m)
Engines: 8 H-1
Thrust: 1,600,000 lbf (7.1 MN)
Fuel: RP-1 (Refined kerosene) 41,000 US gal (155 m³)
Oxidizer: Liquid oxygen (LOX) 66,000 US gal (250 m³)
Burn time: 2.5 min
Burnout altitude: 42 miles (68 km)
H-1 engine
H-1_rocket_engine_diagram.jpg
The H-1 engine is a 200,000 lbf (890 kN) thrust LOX/RP-1 engine, used alone in the first stages of some Delta rockets and the Jupiter rocket. It is derived from the Navaho missile, and was simplified and improved for S-IB use. It is used in clusters on all S-IB rocket stages. Later it would be uprated to 205,000 lbf (912 kN) of thrust. The H-1 preceded the F-1 engine, which was used on the Saturn V rocket.
Fuel: RP-1 (refined kerosene)
Oxidizer: liquid oxygen (LOX)
Height: 8.5 ft (2.6 m)
Width: 5.5 ft (1.7 m)
Thrust: 200,000 lbf (890 kN)
Uprated thrust: 205,000 lbf (912 kN)
Fuel flowrate: 2092 US gal/min (132 L/s)
Oxidizer flowrate: 3330 US gal/min (210 L/s)
Oxidizer to fuel ratio: 2.23:1
Type: bipropellant standard
Nominal chamber pressure: 633 lbf/in² (4.4 MPa)
Inboard weight: 1780 lb (810 kg)
Outboard weight: 2020 lb (920 kg)
Expansion area ratio: 8:1
S-IVB stage
Saturn_S-IB_SIV-B.jpg
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The S-IVB stage is identical to the Saturn V rocket third stage except for the interstage adapter. It is powered by a single J-2 engine, which can gimble. This stage has a "common bulkhead," meaning that one propellant tank is directly connected to the other, as if conjoined twins. This saves about ten tons of weight.
Height: 58.4 ft (17.8 m)
Diameter: 21.7 ft (6.6 m)
Number of fins: 0
Engines: 1 J-2
Thrust: 200,000 lbf (890 kN)
Fuel: Liquid hydrogen (LH2) 64,000 US gal (242 m³)
Oxidizer: Liquid oxygen (LOX) 20,000 US gal (76 m³)
Burn time: approx. 7 min
Burnout altitude (for Saturn IB): orbit
J-2 engine
J-2_rocket_engine.jpg
The J-2 rocket engine was the most powerful hydrogen-fueled engine ever built, until the development of the Space Shuttle main engines (SSME). It is designed to operate in space, and was built specifically for space exploration.
Fuel: Liquid hydrogen (LH2)
Oxidizer: Liquid oxygen (LOX)
Height: 11 ft 1 in (3.4 m)
Width: 6 ft 8.5 in (2.0 m)
Thrust: 195,000 to 225,000 lbf (870 to 1,000 kN), 200,000 lbf (890 kN) standard
Uprated thrust: 230,000 lbf (1,020 kN)
Fuel flowrate: 7960 US gal/min (502 L/s)
Oxidizer flowrate: 2490 US gal/min (157 L/s)
Fuel to oxidizer ratio: 5:1 standard
Type: Bipropellant ratio variable (Thrust is varied by changing the fuel to oxidizer ratio.)
Nominal chamber pressure: 632 lbf/in² (4.4 MPa)
Weight: 3480 lb (1,580 kg)
Expansion area ratio: 27.5:1
All Saturn IB Launches
Saturn IB Vehicles and Launches
| Serial Number | Mission | Launch Date | Notes | |
| AS-201 | AS-201 | February 26, 1966 | 1st test flight. Sub-orbital Command/Service Module test. | |
| AS-203 | AS-203 | July 5, 1966 | 2nd test flight. Test of SIV-B stage. Tracked 4-orbits. | |
| AS-202 | AS-202 | August 25, 1966 | 3rd test flight. 2nd Sub-orbital Command/Service Module test. | |
| AS-204 | Apollo 5 | January 22, 1968 | Earth orbit test of Lunar Module. Launched on Apollo 1 rocket. 36 orbits. | |
| AS-205 | Apollo 7 | October 11, 1968 | Earth orbit test. Crew: Schirra, Eisle, Cunningham. 163-orbits. | |
| AS-206 | Skylab 2 | May 25, 1973 | First Skylab crew: Conrad, Kerwin, Weitz. 404-orbits. | |
| AS-207 | Skylab 3 | July 28, 1973 | Second Skylab crew: Bean, Garriott, Lousma. 838-orbits. | |
| AS-208 | Skylab 4 | November 16, 1973 | Third and final Skylab crew: Carr, Gibson, Pogue. 1,214-orbits | |
| AS-209 | Skylab Rescue | 1973, 1974 | Skylab Rescue Mission. Not flown. | |
| AS-210 | ASTP | July 15, 1975 | Apollo-Soyuz Test Project, Crew: Stafford, Slayton, Brand. 136-orbits. | |
| AS-211 | Unused | |||
| AS-212 | Unused. Second stage, SIV-B, converted to Skylab space station. | |||
| AS-213 | Only 1st stage built. Unused | |||
| AS-214 | Only 1st stage built. Unused | |||
Further reading
- http://www.apollosaturn.com/
- http://www.spaceline.org/rocketsum/saturn-Ib.html
- Saturn launch vehicles (PDF) (http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19710065502_1971065502.pdf)fi:Saturn IB